Hydrogen-Bonding-Assisted Substituent Engineering for Modulating Magnetic Spin Couplings and Switching in m-Phenylene Nitroxide Diradicals

Abstract: Rational modification of the coupler for the theoretical design of molecular magnets has attracted extensive interest. Substituent insertion is a widely used strategy for adjusting molecular properties, but its effect and modulation on magnetic spin couplings have been less investigated. In this work, we predict the magnetic properties of the design m-phenylene nitroxide (NO) diradicals regulated by introducing substituents. The calculated results for those two pairs of diradicals indicate that the signs of th… Show more

“…Very recently, H-bonding-assisted molecular design has been proposed for flattening conformation and enhancing ferromagnetic exchange coupling [ 82 ]. Combining their strategy and related ideas with the present conclusion, control over coplanar or twisted configurations between aryl and nitroxide groups seems to be feasible, which accelerates the development of novel magnetic-switch-based functional materials.…”

A Triplet/Singlet Ground-State Switch via the Steric Inhibition of Conjugation in 4,6-Bis(trifluoromethyl)-1,3-phenylene Bisnitroxide

“…Very recently, H-bonding-assisted molecular design has been proposed for flattening conformation and enhancing ferromagnetic exchange coupling [ 82 ]. Combining their strategy and related ideas with the present conclusion, control over coplanar or twisted configurations between aryl and nitroxide groups seems to be feasible, which accelerates the development of novel magnetic-switch-based functional materials.…”

A Triplet/Singlet Ground-State Switch via the Steric Inhibition of Conjugation in 4,6-Bis(trifluoromethyl)-1,3-phenylene Bisnitroxide